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Growth of Multi-Layer Si/Si1-xGex Structures Using Rapid Thermal Chemical Vapour Deposition

Published online by Cambridge University Press:  21 February 2011

David W.Mcneill ,
B.Mervyn Armstrong  and
Harold S.Gamble
David W.Mcneill
Affiliation:
Northern Ireland Semiconductor Research Centre, The Queen's University of Belfast, N.Ireland, U.K.
B.Mervyn Armstrong
Affiliation:
Northern Ireland Semiconductor Research Centre, The Queen's University of Belfast, N.Ireland, U.K.
Harold S.Gamble
Affiliation:
Northern Ireland Semiconductor Research Centre, The Queen's University of Belfast, N.Ireland, U.K.
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Abstract

Silicon and Si1-x Gex layers have been epitaxially grown on silicon < 100 substrates in a radiantly heated rapid thermal LPCVD reactor using SiH4/GeH4/H2 gas chemistry with the addition of B2H6 and PH3 for in-situ doping. Oxygen-free Si1-xGex layers (0.05<x<0.2) have been grown at temperatures down to 530°C, whereas oxygen-free silicon growth has only been achieved at temperatures above 690°C. The difference is attributed to the formation of volatile GeO during Si1-x Gex growth.

The target application for these Si1-x Gex layers has been as the base of heterojunction bipolar transistors. In-situ boron-doped Si1-x Gex layers with a doping level of 5xl018cm-3 and thicknesses down to 30nm are flanked by undoped Si,.xGex spacers, typically of 15nm in width, to accommodate boron out-diffusion. These have been grown sequentially at 600°C, preceded by silicon buffer growth at 710°C and followed by silicon cap growth also at 710°C.

The process and system development necessary for the production of ultra-thin multiple layer structures are described, addressing the issues of compositional and dopant profile control.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 326: Symposium M – Growth, Processing, and Characterization of Semiconductor Heterostructures , 1993 , 187
Copyright
Copyright © Materials Research Society 1994

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References

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